My problem is to rotate an ellipsoid model around origin. I'm using rotation matrices but the answer doesn't look ok. Can you tell me where the problem is? Below is my code. 1st I defined the region and grid size. Alpha, Beta, Gamma are rotations around X,Y,Z axis. I calculate ellipsoid radii's in new coordinate (rotated coordinate) then check point by point if they agree with ellipsoid formula to define epsilon matrix which is my goal based on points locations. At the end I plot the epsilon matrix for XY,XZ,YZ planes. This works for alpha,beta,theta =0 and 90 degrees but for other angles there's not a resealable answer. Where do you think is the mistake?

FYI: This code is part of FDTD method Maxwell's equations solver.

Thanks,

```
nx=209; ny=209; nz=209;
x_lower=1 ; y_lower=1 ; z_lower=1 ;
x_upper=nx ; y_upper=ny ; z_upper=nz ;
dz=2.366863905325444E-008 ; dy=2.366863905325444E-008 ; dx=2.366863905325444E-008 ;
k_mid=(nz+1-1)/2+1; j_mid=(ny+1-1)/2+1; i_mid=(nx+1-1)/2+1;
x_cyto=0 ; y_cyto=0 ; z_cyto=0 ;
r_cell=2e-6;
alpha=0;
beta=0;
gamma=0;
temp_1=1.334 ; temp_2=1.35;
a_cyto=1e-6 ; b_cyto=1e-6 ; c_cyto=1e-6 ;
temp_3=1.39;
a_nucl=1e-6 ; b_nucl=1.5e-6 ; c_nucl=1e-6 ;
x_nucl=0 ; y_nucl=0 ; z_nucl=0 ;
a_cyto_prime=(a_cyto*(cosd(beta)*cosd(gamma)))-(b_cyto*(cosd(beta)*sind(gamma)))+(c_cyto*(sind(beta)));
b_cyto_prime=(a_cyto*((sind(alpha)*sind(beta)*cosd(gamma))+(cosd(alpha)*sind(gamma))))+...
(b_cyto*(-(sind(alpha)*sind(beta)*sind(gamma))+(cosd(alpha)*cosd(gamma))))+...
(c_cyto*(-sind(alpha)*cosd(beta)));
c_cyto_prime=(a_cyto*(-(cosd(alpha)*sind(beta)*cosd(gamma))+(sind(alpha)*sind(gamma))))+...
(b_cyto*(+(cosd(alpha)*sind(beta)*sind(gamma))+(sind(alpha)*cosd(gamma))))+...
(c_cyto*(cosd(alpha)*cosd(beta)));
for k=z_lower:z_upper
z=dz*(k-k_mid);
z2=(z-z_cyto)^2;
for j=y_lower:y_upper
y=dy*(j-j_mid);
y2=(y-y_cyto)^2;
for i=x_lower:x_upper
x=dx*(i-i_mid);
x2=(x-x_cyto)^2;
if (x2*b_cyto_prime*b_cyto_prime*c_cyto_prime*c_cyto_prime)+...
(y2*a_cyto_prime*a_cyto_prime*c_cyto_prime*c_cyto_prime)+...
(z2*a_cyto_prime*a_cyto_prime*b_cyto_prime*b_cyto_prime)<=...
(a_cyto_prime*a_cyto_prime*b_cyto_prime*b_cyto_prime*c_cyto_prime*c_cyto_prime)
epsilon(i,j,k)=temp_2;
mu(i,j,k)=1;
% if (sqrt(x2+y2+z2)>=r_cell)
% epsilon(i,j,k)=temp_1;
% mu(i,j,k)=1;
% else
% epsilon(i,j,k)=temp_2;
% mu(i,j,k)=1;
% end
else
epsilon(i,j,k)=temp_1;
mu(i,j,k)=1;
end
end
end
end
eps_2D_YZ(1:x,1:x)=epsilon(round(x/2),:,:);
eps_2D_XZ(1:x,1:x)=epsilon(:,round(x/2),:);
eps_2D_XY(1:x,1:x)=epsilon(:,:,round(x/2));
x=length(eps_2D_XY);
subplot(1,3,1); surf(-round((x-1)/2):round((x-1)/2),-round((x-1)/2):round((x-1)/2),eps_2D_XY); title('XY'); view(2); axis equal tight;
subplot(1,3,2); surf(-round((x-1)/2):round((x-1)/2),-round((x-1)/2):round((x-1)/2),eps_2D_XZ); title('XZ'); view(2); axis equal tight;
subplot(1,3,3); surf(-round((x-1)/2):round((x-1)/2),-round((x-1)/2):round((x-1)/2),eps_2D_YZ); title('YZ'); view(2); axis equal tight;
```

`eps_2D_YZ(1:x,1:x)=epsilon(round(x/2),:,:);`

, because`x=0`

(you cannot index an array at element 0, they have to start at index 1). – Hoki Aug 19 '15 at 16:01